Publications
My publications can also be found on my Google Scholar page.
14) "Undergraduate tutorial for simulating flocking with the Vicsek model" A. Pasha Tabatabai, MacQuarrie Thomson, and Reece Keller, The Biophysicist 4, 1 (2023).
Online version. DOI: 10.35459/tbp.2022.000227
13) "Non-reciprocal interactions spatially propagate fluctuations in a 2D Ising model" Daniel S. Seara, Akash Piya, and A. Pasha Tabatabai, Journal of Statistical Mechanics: Theory and Experiment (2023).
Online version. DOI: 10.1088/1742-5468/accce7
12) "Mexican jumping beans exhibit diffusive motion" Devon McKee and A. Pasha Tabatabai, Physical Review E 107, 014609 (2023).
Online version. DOI: 10.1103/PhysRevE.107.014609
Press Coverage: Science News, Le Temps, Ars Technica, and Phys.org.
11) "F-actin architecture determines constraints on myosin thick filament motion" Camelia G. Muresan, Zachary G. Sun, Vikrant Yadav, A. Pasha Tabatabai, Laura Lanier, June Hyung Kim, Taeyoon Kim, and Michael P. Murrell, Nature Communications 13, 7008 (2022).
Online version. DOI: 10.1038/s41467-022-34715-6
10) "Detailed balance broken by catch bond kinetics enables mechanical-adaptation in active materials" A. Pasha Tabatabai*, Daniel S. Seara*, Joseph Tibbs, Vikrant Yadav, Ian Linsmeier, and Michael P. Murrell, Advanced Functional Materials (2020).
Online version. DOI: 10.1002/adfm.202006745
9)"Dynamic motions of molecular motors in the actin cytoskeleton" Wonyeong Jung, A. Pasha Tabatabai, Jacob Thomas, S. M. Ali Tabei, Michael Murrell, and Taeyoon Kim, Cytoskeleton 76 (2019).
Online version. DOI: 10.1002/cm.21582
8)"Filament nucleation tunes mechanical memory in active polymer networks" Vikrant Yadav, Deb S. Banerjee, A. Pasha Tabatabai, David R. Kovar, Taeyoon Kim, Shiladitya Banerjee, Michael P. Murrell, Advanced Functional Materials, 49 (2019).
7)"Wound healing coordinates actin architectures to regulate mechanical work" Visar Ajeti*, A. Pasha Tabatabai*, Andrew J. Fleszar, Michael F. Staddon, Daniel S. Seara, Cristian Suarez, M. Sulaiman Yousafzai, Dapeng Bi, David R. Kovar, Shiladitya Banerjee, Michael P. Murrell, Nature Physics 15 (2019).
6)"Silk molecular weight affects the kinetics of enzymatically crosslinked silk hydrogel formation" A. Pasha Tabatabai, Benjamin P. Partlow, Nicole R. Raia, David L. Kaplan, Daniel L. Blair, Langmuir, 50 (2018).
Online version. DOI: 10.1021/acs.langmuir.8b02950
5)"Entropy production rate is maximized in non-contractile actomyosin" Daniel S. Seara, Vikrant Yadav, Ian Linsmeier, A. Pasha Tabatabai, Patrick Oakes, Ali Tabei, Shiladitya Banerjee, Michael P. Murrell, Nature Communications 9 (2018).
Online version. DOI: 10.1038/s41467-018-07413-5
4)"Cooperation of dual modes of cell motility promotes epithelial stress relaxation to accelerate wound healing" Michael F. Staddon, Dapeng Bi, A. Pasha Tabatabai, Visar Ajeti, Michael P. Murrell, and Shiladitya Banerjee, PLoS Computational Biology 10 (2018).
Online version. DOI: 10.1371/journal.pcbi.1006502
3)"Acid-induced assembly of a reconstituted silk protein system" A. Pasha Tabatabai, Katie Weigandt, and Daniel L. Blair, Physical Review E 96, 022405 (2017).
Online version. DOI: 10.1103/PhysRevE.96.022405
2)"Silk fibroin degradation related to rheological and mechanical properties" Benjamin P. Partlow*, A. Pasha Tabatabai*, Gary G. Leisk, Pegge Cebe, Daniel L. Blair, and David L. Kaplan, Macromolecular Bioscience 16, 666-675 (2016).
Online version. DOI: 10.1002/mabi.201500370
1)"Rheology of Reconstituted Silk Fibroin Protein Gels: The Epitome of Extreme Mechanics" A. Pasha Tabatabai, David L. Kaplan, and Daniel L. Blair, Soft Matter, 11, 756-761 (2015).
Online version. DOI: 10.1039/C4SM02079K
*Authors contributed equally